Chemistry:Emulsified fuel

Short description: Emulsions composed of water and a combustible liquid

Emulsified Fuels are emulsions composed of water and a combustible liquid, either oil or a fuel. Emulsions are a particular example of a dispersion comprising a continuous and a dispersed phase. The most commonly used emulsion fuel is water-in-diesel emulsion.^[1] In the case of emulsions, both phases are the immiscible liquids, oil and water. Emulsion fuels can be either a microemulsion or an ordinary emulsion (sometimes referred to as macroemulsion, to differentiate it from microemulsion). The essential differences between the two are stability (microemulsions are thermodynamically stable systems, whereas macroemulsions are kinetically stabilized) and particle size distribution (microemulsions are formed spontaneously and have dimensions of 10 to 200 nm, whereas macroemulsions are formed by a shearing process and have dimensions of 100 nm to over 1 micrometer). Microemulsions are isotropic whereas macroemulsions are prone to settling (or creaming) and changes in particle size over time. Both use surfactants (also called emulsifiers) and can be either water-in-oil (invert emulsions), or oil-in-water (regular emulsions) or bicontinuous (also called multiple or complex emulsions).

Applications

Water continuous (oil-in-water) emulsified fuels are exemplified by the Orimulsion system and bitumen emulsions. These are often described as a high internal phase emulsion (HIPE) because the continuous phase is around 30% of the composition of the fuel, whereas it is more usual for the dispersed phase to be the minor component. Water continuous emulsions of very heavy crudes, bitumen are easier to pump than the original fuel, which would require considerable heating and / or dilution with a distilled product (kerosene or light crude) in order to make them easy to handle. Water continuous emulsions of residual fuel, heavy fuel oils etc. which have a calorific value and are used in industrial applications can also be converted to emulsified fuels, thus reducing the need to use cutter fluids and improving the combustion emissions associated with the inferior fuels.

Oil continuous (water-in-oil) emulsified fuels are exemplified by diesel (or biodiesel blended fuels) and water emulsions. These emulsified fuels were recognized in Europe (France and Italy) and CEN workshop standard was established (CWA 15145:2004). Other types of fuels have been emulsified contain between 5 and 30% water (by mass) in the overall fuel emulsion. Water-in-diesel fuel emulsion could be used as an alternative fuel for low emissions and high brake thermal efficiency.^[2]

Emulsion to combustion (E2C) or on-demand water-in-fuel emulsions for HFO and Diesel for shipping and stationary boilers are available from Nonox Ltd. since 2006. The advantage of mixing on demand is no chemical surfactants are required, water/fuel ratio can be adjusted to load for maximum efficiency and no chance of separation in storage. This proven system reduces soot emissions up to 90%, NOx 40% and offers fuel savings which vary depending on the baseline efficiency of the load.

Microemulsions of fuels have also been prepared. The type of surfactants and quantities required to make these emulsion fuels sets them apart from other commercial emulsion fuels. These are considered where safety issues (e.g. fire prevention;^[3]) or commercial return justify the extra costs (e.g. enhance oil recovery, surfactant flooding;^[4]).

Theory

The main advantages to using emulsified fuels instead of the fuel itself are environmental and economic benefits. Addition of water to the diesel process decreases combustion temperatures and lowers NO_x emissions.^[5] A paper compares water injection and emulsified fuels into diesel engines (marine and stationary engines) and discusses the emissions and mechanisms involved. It concludes that emulsified fuels are singularly effective in simultaneously reducing NO_x and PM emissions.^[6] Another paper has examined the effects of EGR and Emulsion Fuels.^[7]

References

↑ Jhalani, Amit; Sharma, Dilip; Soni, Shyam Lal; Sharma, Pushpendra Kumar; Sharma, Sumit (6 January 2019). "A comprehensive review on water-emulsified diesel fuel: chemistry, engine performance and exhaust emissions". Environmental Science and Pollution Research 26 (5): 4570–4587. doi:10.1007/s11356-018-3958-y. PMID 30612375.
↑ Jhalani, Amit; Sharma, Dilip; Soni, Shyam Lal; Sharma, Pushpendra Kumar (22 September 2019). "Effects of process parameters on performance and emissions of a water-emulsified diesel-fueled compression ignition engine". Energy Sources, Part A: Recovery, Utilization, and Environmental Effects: 1–13. doi:10.1080/15567036.2019.1669739.
↑ Archived at Ghostarchive and the Wayback Machine: Fire Resistant Fuels for the Military at SwRI. YouTube.
↑ http://files.sc.akzonobel.com/bulletins/Enhanced%20Oil%20Recovery-Tech-bulletin.pdf^{[yes|permanent dead link|dead link}}]}
↑ Canfield, C.A. (1999). Effects of Diesel-Water Emulsion Combustion on Diesel Engine NO_x Emissions (M.S. thesis). State University System of Florida.
↑ W. Addy Majewski (2002). "Water in Diesel Combustion". https://dieselnet.com/tech/engine_water.php.
↑ Bertola, A.; Li, R.; Boulouchos, K. (2003). "Influence of Water-in-Diesel Emulsions and EGR on Combustion and Exhaust Emissions of Heavy Duty DI-Diesel Engines equipped with Common-Rail Injector System". SAE Technical Paper. doi:10.4271/2003-01-3146. 2003-01-3146.

'Experimental investigation of a Diesel engine power, torque and noise emission using Water-Diesel emulsions', Mohammad Reza Seifi et al. http://doi.org/10.1016/j.fuel.2015.10.122

External links

Serdyuk, Vasily (2008). "In search of the fuel of the future: In the near future, usual types of motor fuel will be replaced by water-fuel emulsions". Oil of Russia (Lukoil) (3). OCLC 74330613. http://www.oilru.com/or/36/716/.

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[1] Jhalani, Amit; Sharma, Dilip; Soni, Shyam Lal; Sharma, Pushpendra Kumar; Sharma, Sumit (6 January 2019). "A comprehensive review on water-emulsified diesel fuel: chemistry, engine performance and exhaust emissions". Environmental Science and Pollution Research 26 (5): 4570–4587. doi:10.1007/s11356-018-3958-y. PMID 30612375.

[2] Jhalani, Amit; Sharma, Dilip; Soni, Shyam Lal; Sharma, Pushpendra Kumar (22 September 2019). "Effects of process parameters on performance and emissions of a water-emulsified diesel-fueled compression ignition engine". Energy Sources, Part A: Recovery, Utilization, and Environmental Effects: 1–13. doi:10.1080/15567036.2019.1669739.

[3] Archived at Ghostarchive and the Wayback Machine: Fire Resistant Fuels for the Military at SwRI. YouTube.

[4] ttp://files.sc.akzonobel.com/bulletins/Enhanced%20Oil%20Recovery-Tech-bulletin.pdf^{[yes|permanent dead link|dead link}}]}

[5] Canfield, C.A. (1999). Effects of Diesel-Water Emulsion Combustion on Diesel Engine NO_x Emissions (M.S. thesis). State University System of Florida.

[6] W. Addy Majewski (2002). "Water in Diesel Combustion". https://dieselnet.com/tech/engine_water.php.

[7] Bertola, A.; Li, R.; Boulouchos, K. (2003). "Influence of Water-in-Diesel Emulsions and EGR on Combustion and Exhaust Emissions of Heavy Duty DI-Diesel Engines equipped with Common-Rail Injector System". SAE Technical Paper. doi:10.4271/2003-01-3146. 2003-01-3146.

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